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DR. G. VENKATASWAMY EYE RESEARCH INSTITUTEAravind Medical Research Foundation
Report 2006The research activities at Aravind began within a year of the establishment of thehospital leading to one of the first publications documenting barriers to accessinghealth care particularly eye care. Since then several research studies have taken placeto provide evidence to directly influence service delivery models. Subsequently, re-search activities increased, leading to the formation of a separate organization knownas Aravind Medical Research Foundation.
Aravind, known for its service delivery and outreach programmes, is now consid-ered a role model in eye care revolutionizing hundreds of eye care programmes acrossthe developing world.
Over the years, the spectrum of research activities also diversified from epidemiol-ogy, clinical research and clinical genetics to basic research and translational re-search. The importance of basic research on Genetics, Immunology, Microbiology, CellBiology, Bio Chemistry and Molecular Biology of eye diseases with special referenceto Indian context is well recognized and several research programmes are underwaywith the support of various funding agencies in India and with international collabo-ration.
Aravind is currently in the process of establishing a new major centre for research– Dr.G.Venkataswamy Eye Research Institute to strengthen and integrate the variousresearch activities. Major programmes on proteomics of vitreous and tear related toeye diseases have also been initiated.
The future activities would involve Functional Genomics, Copy number variation,Single Nucleotide polymorphism, especially in age related eye diseases.
Dr.VR. Muthukkaruppan, Dr. P. Balakrishnan, Dr. R. Kim, Dr. D.K. Mehta, Ms. Alice Crasto, Ms. A. Jancy, Dr. V.M.Loganathan, Dr. P. Namperumalsamy, Dr. S. Aravind, Mr. V. Vijayakumar
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ARAVIND MEDICAL RESEARCH FOUNDATION
PRESIDENT
DR. P. NAMPERUMALSAMY, MS, FAMS
VICE-PRESIDENT
DR. G. NATCHIAR, MS DO
SECRETARY & TREASURER
MR. G. SRINIVASAN BE, MS
DIRECTOR – RESEARCH & IMMUNOLOGY
DR. VR. MUTHUKKARUPPAN, M.SC, PH.D
DEPARTMENT OF GENETICS
SENIOR SCIENTIST
DR. P. SUNDARESAN, M.SC., PH.D
DEPARTMENT OF IMMUNOLOGY
JUNIOR SCIENTIST
MS. GOWRIPRIYA CHIDAMBARANATHAN, M.SC
PH.D PROGRAMME
Recognised by the Tamil Nadu MGR Medical University as a Centre for Ph.D. in Ophthalmology, Aravindhas instituted a Ph.D. Programme, under which Dr. S.R. Rathinam, Chief of Uvea Clinic, Aravind EyeHospital, Madurai has been awarded Ph.D. in 2006. Title of the thesis was “Studies on clinical presenta-tion, diagnosis and management of Infectious uveitis with reference to Leptospirosis”.Dr. P. Namperumalsamy offered guidance to Dr. S.R. Rathinam in this programme.Madurai Kamaraj University has recognised Aravind Medical Research Foundation as centre for Ph.D. inBiomedical Sciences.
Dr SR Rathinam receives her PhD award from Tamil Nadu Governor, Thiru Surjit Singh Barnala atthe sixteenth convocation of The Tamil Nadu Dr.M.G.R.Medical University
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SCHOLARS WORKING FOR PH.D
NAME & REGN YEAR GUIDE PROJECT TITLE
C.GOWRIPRIYA DR. VR. MUTHUKKARUPPAN Aetiology and pathogenic Mechanism of Uveitis associated with21.11.2002 Leptospirosis Submitted Thesis in November 2006
ARPITHA PARTHASARATHY DR. VR. MUTHUKKARUPPAN Identification, Characterization, Enrichment and in25.11.2002 vitro maintenance of human corneal epithelial stem cells submitted
thesis in January 2007
G.NEETHIRAJAN DR. P. SUNDARESAN Molecular Analysis of PAX6 Gene in Indian Aniridic patients.18.12.2002 Submitted Thesis in April 2006
J.KANAGAVALLI DR. P. SUNDARESAN Studies on Myocilin (TIGR/MYOC) gene mutations and24.12.2002 myocilin protein in Indian patients with primary open angle
glaucoma Submitted Thesis in December 2006
R.RAMYA DEVI DR. P. SUNDARESAN Differential Gene Expression In age related cataract11.02.2003
J.NALLATHAMBI DR. P. SUNDARESAN Involvement of Transcription Factor genes PAX6/ FOXL230.09.2004 in various ocular anomalies
T.AMALA RAJA SUNDARI DR. P. SUNDARESAN Determination of Genetic Makeup of Rubella virus infecting02.11.2004 children in South India
B.SUGANTHALAKSHMI DR. P. SUNDARESAN Molecular Genetics of Diabetic Retinopathy26.11.2004
B.HEMADEVI DR. P. SUNDARESAN Gentic and Functional analysis of Fuch’s Endothelial Corneal01.02.2006 Dystrophy (FECD) and Congenital Hereditary Endothelial
dystrophy (CHED) in Indian patients
P.MURUGESWARI DR. VR. MUTHUKKARUPPAN Studies on Molecular Mechanism of Diabetic Retinopathy20.04.2006
P.J.JEYA PRITA DR. VR. MUTHUKKARUPPAN Corneal surface reconstruction using bio-engineered autologousoral mucosal epithelium
S. NAGASUNDARAPANDIAN DR. VR. MUTHUKKARUPPAN Vitreous Proteomics
M. JEYALAKSHMI DR.VR.MUTHUKKARUPPAN Will cytoskeletal drugs prevent PCO?
M. VANITHA DR. VR. MUTHUKKARUPPAN Bio-Informatics
S. ANANTHI DR. N.V. PRAJNA Pathogen host interaction in human mycotic keratitis
K. RENUGADEVI DR. P. SUNDARESAN Identification Of Genetic Defects occurring In IndianOculocutaneous (OCA) And Ocular Albinism (OA) Families.
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ONGOING PROJECTS
PATHOGENIC MECHANISM OF UVEITIS ASSOCIATED WITH PAST LEPTOSPIRAL INFECTIONInvestigators : Dr. VR. Muthukkaruppan
Dr. SR. Rathinam
Research Scholar : C. Gowri Priya
Funded by : Aravind Medical Research FoundationLeptospiral aetiology of uveitis has been demonstrated on the basis of presence of anti-leptospiral LPSantibodies in the serum and pathogenic leptospiral DNA in the aqueous humor. The causative factorresponsible for the predominant infiltration of neutrophils and the presence of inflammatory cytokines inaqueous humor of these patients has been identified as LPS. On the basis of the following evidences: (a)A significant level of leptospiral LPS was observed in aqueous humor by dot blot using a monoclonalantibody F70-24, (b) The leptospiral LPS in aqueous humor was serovar specific and the same serovarspecific antibody was found in serum of the same patient, (c) Leptospiral LPS induced the production ofinflammatory cytokines in whole blood cultures and (d) Infiltrating cells from aqueous humor of leptospi-ral uveitis patients spontaneously produced inflammatory cytokines in vitro. The study confirms thatleptospiral uveitis is different from other forms of uveitis based on the aetiology and the pathogenicmechanism.
“TWO-PARAMETER ANALYSIS” A PRECISE CORNEAL EPITHELIAL STEM CELL MARKER
Investigators : Dr. VR. MuthukkaruppanDr. M. SrinivasanDr. NV. Prajna
Research Scholar : Arpitha Parthasarathy
Funded by : Aravind Medical Research FoundationThe novel combination of the two parameters, high expression of p63 combined with a large N/C ratio wasused to identify a subset of limbal cells with putative stem cell characteristics (IOVS 2005). The followingevidences confirm that the two parameters in combination form a precise corneal epithelial stem cellmarker. Isolated limbal basal cells (Known location for stem cells) contained an enriched population ofcells positive for the above marker, having high colony forming efficiency. Such cells possess slow-cyclinglabel (Brdu) retaining property.
Limbal explant cultures were labeled briefly with BrdU followed by chase for 3-weeks. Cytospin smearsof cells from the outgrowth were double immunostained for p63 and BrdU and then subjected to two-
Evaluation Of Label Retaining Property Of Cultured Limbal Epithelial Cells In Relation To Two-Parameter Analysis
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parameter analysis. (A) Confocal image after 2D average reconstruction showing 2 cells positive for p63(green). A small cell (arrow head) with high levels of p63 and high N/C ratio and a large cell with lowN/C ratio (arrow). (B) The same field showing BrdU positive (red) LRC (arrow head). Note: The largecell of (A) negative for BrdU.(C) Overlay image of transmitted light and propidium iodide for cells in (A).
IN VITRO AND IN VIVO STUDY ON THE SECRETION OF GLY367ARG MUTANT MYOCILIN PROTEIN
Principal Investigator : Dr. P. Sundaresan
Co-Investigators : Dr. SR. KrishnadasDr. S. Krishnaswamy, MKU, Madurai.
Research Scholar : J. Kanagavalli
Funded by : Indian Council of Medical ResearchMutations in the Myocilin gene (MYOC) leading to a perturbed outflow of aqueous in the trabecularmeshwork (TM) has been associated with the pathophysiology of glaucoma. This study examined theexpression of normal and mutant Myocilin (Gly367Arg) in cultured TM cells. Normal and mutant MYOCcDNA constructs were used to transfect the TM cells. Western blot confocal microscopic analysis wasused to determine the cellular localization of Myocilin protein. Molecular Modeling and Dynamics forthe mutant was demonstrated with the native Myocilin model using GROMACS. Gly367Arg mutationcauses accumulation of Myocilin protein within TM cells with extensively reduced secretion, in contrastto wild type Myocilin. The secreted Myocilin in the aqueous humor of patients with Gly367Arg mutationcorrelated with the in vitro findings, confirming the disease-causing glaucomatous phenotype. Further,Gly367Arg mutation occurs in a hydrophobic region causing aggregation, leading to burial of a chargedresidue resulting in the conformational change to accommodate the mutation. Our results suggest thatGly367Arg is a potential mutation causing malfunction of TM cells either by dominant negative effect orgain of function of mutant Myocilin. The structural model indicates the aggregation of Myocilin proteinconfirming the pathogenic significance of Gly367Arg./mutation.
Confocal microscopic image of TM cells transfected with wild type and mutant Myocilin.A. Untransfected TM cells showed no endogenous expression of Myocilin. B. The TM cellsshowed wild type Myocilin expression in the perinuclear region. C. Intense staining ofGly367Arg mutant Myocilin in the perinuclear region of TM cells. D-F. Phase contrastimages of panels A-C respectively.
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MOLECULAR STUDY ON CONGENITAL RUBELLA SYNDROME IN SOUTH INDIAN POPULATION
Investigators : Dr. P. SundaresanDr. P. Vijayalakshmi
Collaborators : Dr. David BrownDr. Li JinHealth Protection Agency, London
Research Scholar : T. Amala Raja Sundari
Funding : World Health Organization, GenevaORBIS International, New Delhi
Congenital rubella Syndrome accounts for significant rate of mortality and morbidity in south India sincethe vaccination is not mandatory. The main objective of the study is to apply molecular technique such asReal-Time (RT) and nested Block-Based (BB) PCR for detecting the rubella viral RNA in clinical speci-mens from suspected CRS infants with ocular anomalies. Part of the study has been carried out at HealthProtection Agency, London by Ms.Amala.
Samples between age group 0-59 months from IgM IgG positive, IgG positive only and IgM IgGnegative categories were investigated. The viral RNA was detected in 85% cases of age between 0-11months who were sero-positive for both anti-rubella IgM and IgG. High percentage of positivity wasobserved in lens material and oral fluid samples. The positive samples were sequenced and the data wasanalyzed using DNA star and seqman software program. Totally, 41 samples from 26 cases weresequenced and showed significant diversity.
Training on Rubella virus culture was also carried out in vero and RK13 cell line using Lab adaptedpositive Judith strain and the confirmation of viral growth was done by Immunofluorescence and nestedBB-PCR.
IDENTIFICATION OF CANDIDATE GENES AND SCREENING FOR POLYMORPHISMS OF GENES ASSOCIATED WITH TYPE II DIABETICRETINOPATHY
Investigators : Dr. P. SundaresanDr. P. NamperumalsamyDr. R. KimDr. Anand Rajendran
Research Scholar : B. Suganthalakshmi
Funded by : TIFAC-CORE in Diabetic RetinopathyAravind Medical Research Foundation
India is crowned as a diabetic capital. Diabetic Retinopathy is a most frequent microvascular complica-tion of diabetes and the leading cause of acquired blindness in developed countries. Diabetic patients withmicrovascular disease have increased profile of gene expression and enzyme activity, which may be dueto variants in the genes encoding angiogenic growth factors and the enzymes involved in the biochemicalpathway. To identify the polymorphisms in genes associated with type 2 diabetic retinopathy, 176 Dia-betic retinopathy (DR) and 120 diabetic without retinopathy (DNR) samples were screened for polymor-phisms in aldose reductase gene (ALR) gene.
Two novel promoter polymorphisms have been identified in ALR gene. The heterozygous genotypeof one of the polymorphisms showed higher odds ratio and was found to be significantly associated withDR when compared to DNR.
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The aldose reductase activity (AR) in erythrocytes was carried out in 15 DR and 15 DNR studysubjects with the help of Dr.Bhanuprakash reddy in National Institute of Nutrition (NIN), Hyderabad. TheAR activity was higher in both DR and DNR group (>5u/g Hb) when compared with the control samples(2.89u/g Hb, n=500) of NIN. There is no difference in AR activity between DR and DNR groups. Furtherstudies are underway with larger sample size.
STUDIES ON THE PROANGIOGENIC AND VASCULAR GROWTH FACTORS IN RELATION TO THE PATHOGENESIS OF EALES’ DISEASEAND DIABETIC RETINOPATHY
Principal Investigator : Dr. VR. Muthukkaruppan
Co-investigators : Dr. P. NamperumalsamyDr. D. ShuklaDr. R. KimDr. R. Anand
Research Scholar : P. Murugeswari
Funded by : TIFAC-CORE and Department of Science and Technology
To understand the pathogenicmechanism of DiabeticRetinopahty, earlier we demon-strated the levels ofProinflammatory cytokines (IL-6, IL-8, IL-1B), Chemokinefactor (MCP-1), angiogenicgrowth factor (VEGF) andantiangiogenic factor (PEDF) inthe vitreous, aqueous and serumof Proliferative diabetic retin-opathy, Eales’ disease andMacular Hole patients. Diabeticretinopathy is also an inflamma-tory disease as reported earlier.As PEDF is secreted by RPEcells we are interested in study-ing the cytokines and growthfactors secreted by RPE cells.
Cytokine levels in the conditioned medium of Retinal Pigment Epithelium (RPE)• In conditioned medium of primary cultures, constitutive expression of IL6, IL8 and VEGF was ob-
served.• In the RPE D407 cell line constitutive expression of IL6 and VEGF were observed
Cadaver RPE cells RPE D407 cell line
RPE D407 cell line 4-day confluent culture Cadaver RPE cells 28-day confluentculture
Giemsa stained cytospin smear of RPE Cells
Phase Contrast images showing live cultures of Retinal Pigment Epithelium
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MOLECULAR GENETIC ANALYSIS OF AUTOSOMAL RECESSIVE CONGENITAL HEREDITARY ENDOTHELIAL DYSTROPHY
Principal Investigator : Dr. P. Sundaresan
Co-Investigators : Dr. M. SrinivasanDr. J. Arun Kumar
Research Scholar : B. Hemadevi
Funded By : Aravind Medical Research Foundation & Singapore Eye Research InstituteCongenital Hereditary EndothelialDystrophy (CHED) is a heritabledisorder of the corneal endotheliumcharacterised by bilateral, diffusecorneal clouding, which impairs visualacuity, occurring at or soon after birth.CHED can be Autosomal dominant(CHED1 [MIM %121700]) or Autoso-mal Recessive (CHED2 [MIM%217700]) with the later being morecommon and severe. Both CHED1 andCHED2 map to chromosome 20 at twodistinct loci. This collaborative study hasidentified SLC4A11 as a novel candi-date gene for CHED2(Nat.Genet.2006).
Further, we have been screeningCHED2 families for mutations in thisgene. As a result of screening, in theFamily 2, nonsense mutation wasidentified causing a premature stop atcodon 605 (R605X). Two missensemutations R869C and R755Q wereidentified in Family 1 and Family 3respectively. In addition R755 and R869residues were highly conserved among
orthologs and paralogs. In family 4, a 4bp deletion (353_356delAGAA) results in an aberrant truncatedprotein of 128 residues. In Family 5, a deletion insertion in intron 15 (IVS15 -6 _ -16 delinsGGCCGGCCGG) was identified. None of these mutations were identified in 50 controls. The identificationof mutations in all families analyzed in this study indicates that the recessive CHED is genetically homoge-neous.
RFLP analysis was carried out using Msp1 restriction enzyme. The Proband (V-7) and his sister (V-6)were homozygous for the R869C mutation while their parents (IV-7, IV-8)) and grandmother (III-3) wereheterozygous for the mutation.
Pedigree of Family 1
RFLP analysis of R869C mutation
M V-7 V-6 IV-7 IV-8 III-3 C
M-Marker, C-Control
I:1 I:2
II:1 II:2 II:3 II:4
III:1 III:2 III:3 III:4
IV:12IV:11IV:10IV:9IV:8IV:7IV:6IV:5IV:42
IV:3IV:2IV:1SB
V:1 V:22
V:3 V:4 V:5 V:6 V:7 V:8 V:9 V:10 V:11
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GENETIC AND FUNCTIONAL ANALYSIS OF FOXL2 GENE IN INDIAN PATIENTS WITH BPES SYNDROME.
Principal Investigator : Dr. P.Sundaresan
Co-Investigators : Prof. Reiner A. VEITIAGénétique-GénomiqueProfesseur de Université Paris VIIFaculté de Médecine Port Royal/ Hôpital Cochin24, rue de Faubourg St.Jacques. 75014 ParisDr.Usha Kim
Research Scholar : J. Nallathambi
Funded By : French Embassy New Delhi and EGIDE France.The blepharophimosis syndrome (BPES) is anautosomal dominant developmental disorder inwhich craniofacial/eyelid malformations areassociated (type I) or not (type II) with prema-ture ovarian failure (POF). Mutations in theFOXL2 gene, encoding a forkhead transcriptionfactor, are responsible for both types of BPES.Heterozygous polyalanine expansions of +10residues (FOXL2-Ala24) account for 30% of
FOXL2 mutations and are fully penetrant for the eyelid phenotype. Here we describe the first homozygousFOXL2 mutation leading to a polyalanine expansion of +5 residues (FOXL2-Ala19). This novel mutationsegregates in an Indian family where heterozygous mutation carriers are unaffected whereas homozygousindividuals have the typical BPES phenotype, with proven POF in one female. Expression of the FOXL2-Ala19 protein in COS-7 cells revealed a significantly higher cytoplasmic retention compared to the wild-type protein. This is the first study providing genetic evidence for a recessive inheritance of BPES associ-ated with ovarian dysfunction (published in Human genetics, November 2006).
Pedigree of the Five-generation consanguineous Indian family in which a typical BPES phenotype inhomozygous individuals (Individuals I:1 and II:3 were represented as affected based on family history).Bottom; Agarose gel electrophoresis (3%) of a PCR amplicon shows segregation of FOXL2–polyAla19expansion c.684–698dup15 (p.A228_A232dup) in two affected and five unaffected individuals. M 100 bpDNA marker, C unrelated healthy control; the number symbols refer to the pedigree, Bl negative controlfor PCR reaction. Unaffected individuals III:5, III:6, III:8, IV:6 and IV:8 carry a wild type and an ex-panded allele (PCR fragment of 304 and 319 bp, respectively); affected individuals are homozygous for
the expanded allele and the control individualonly carries a wild type band.
Subcellular localization of FOXL2–Ala19.COS-7 cells were transfected with constructsdriving overexpression of FOXL2–Ala14 (wildtype), Ala19 and Ala24 fused to the GFP.FOXL2–Ala24 was included for comparison.After 48 h of transfection FOXL2–Ala19 wasmislocalized in the cytoplasm in 15% oftransfected cells but did not induce significantintranuclear aggregation (compared to the effectof Ala24).
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NEW PROJECTS
PATHOGEN HOST INTERACTION IN HUMAN MYCOTIC KERATITIS
Principal Investigator : Dr. N. Venkatesh Prajna
Co Investigators : Dr. K. DharmalingamSr. Professor & HeadSchool of BiotechnologyMadurai Kamaraj UniversityDr. S. Lalitha
Research Scholar : S. Ananthi
Funded by : Department of Biotechnology, Government of IndiaFungal keratitis is an important cause of corneal blindness in India. The purpose of this study was toelucidate the alterations in the tear proteins of fungal keratitis patient, which may have a bearing onpathogenesis. Tear samples were collected from culture positive fungal keratitis patients. Tears from thefellow eye and from other healthy individuals served as controls. Two-dimensional (2D) electrophoresiswas used for separation of fractionated infected tear proteins and control tear proteins. MALDI TOFbased detection of selected protein spots were performed from the gels. A MASCOT search engine wasused for further identification of proteins.
The Glutaredoxin related protein was expressed only in the tears of fungal keratitis patients. Six othernormal tear proteins were present in both samples, but with varied expression. Secretory actin-bindingprotein and Serum albumin precursor were up-regulated in the infected samples. Cystatin S precursor,cystatin SN precursor, cystatin and human tear lipocalin were down regulated in the infected samples.
Glutaredoxin related protein is known to be produced by Aspergillus fumigatus during oxidativestress conditions and presence of this protein in thetears of patients with fungal keratitis is of consider-able interest.
250 µg of deoxycholate precipitated Aspergillusinfected tear sample was loaded. IEF was performedusing IPG pH 3-10 NL strips, followed with 12%SDS-PAGE and Coomassie G250 stained. The posi-tion of molecular mass markers on right side andposition of pI on the top of the gel is shown.
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IDENTIFICATION OF GENETIC DEFECTS OCCURRING IN INDIAN OCULOCUTANEOUS (OCA) AND OCULAR ALBINISM (OA) FAMILIES
Principal Investigator : Dr. P. Sundaresan
Co-Investigator : Dr. Vijayalakshmi PerumalsamyDr. Asim Kumar Sil
Research scholar : K. Renugadevi
Funded by : Department of BiotechnologyThe purpose of this study is to detect albinism gene exonic mutations and its Co-inheritance in IndianOculocutaneous (OCA1) or Ocular albinism (OA1) families. We have so far collected 98 DNA samplesfrom patients.The objectives are1. Linkage analysis using the genetic markers near each known albinism genes on chromosomes
5,6,9,11,15 & X for Oculocutaneous and Ocular albinism patients in India.2. To develop a rapid diagnostic method for albinism (OCA1/OA1) using PCR-RFLP for early carrier
detection and genetic counseling for patients.
BIOINFORMATICS IN OPHTHALMOLOGY
Development of Data mining techniques using variety of data structures on eye diseases in Indian popula-tion and software development in relation to medical diagnostics for image analysis
Investigator : Dr. VR. Muthukkaruppan
Collaborator : Dr. S. KrishnasamyMadurai Kamaraj University
Research Scholar : M. Vanitha
Funded by : Aravind Medical Research FoundationAmong the “New Kinds of Science” emerging from the convergence of computing and science, a crucialrole is played by BIOINFORMATICS. Bioinformatics can provide its support to diagnostic medicine,especially in imaging systems, developing databases on eye diseases. Ophthalmology is no exception tothis. The use and advantages of bioinformatics can be utilized.
The purpose of this project is to develop database on Eye diseases and in particular to start withPrimary Open Angle Glaucoma. Aravind Eye Care System has enormous number of data in all levels,Clinical, epidemiological and as well genetic analysis. Database can be created using programming skillsand softwares. Zope is an open source application server for building content management systems,intranets, portals, and custom applications. Using PostgreSQL and Python scripts a database will becreated with Genetic, Clinical and Epidemiological data in a single source. With regard to softwaredevelopment, Electronic Medical Records can be maintained in Aravind Eye Care System, so that data-base management will be much easier
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WILL CYTOSKELETAL DRUGS PREVENT POSTERIOR CAPSULE OPACIFICATION?
Principal Investigators : Dr. VR. MuthukkaruppanDr. Baohe Tian, Department of Ophthalmology and Visual Sciences,University of Wisconsin-Madison, (UW), USA
Co-Investigator : Dr. Hari Priya
Research Scholar : M. Jeyalakshmi
Funded by : National Eye Institute, NIH, USA The main objective of the project is to determine whether the cytoskeletal drugs LAT-B or H-7 would helpin clearing all the lens epithelial cells during cataract surgery in cadaver human eyes. The experiments aredesigned to evaluate the number/area of residual lens epithelial cells immediately after surgery with andwithout treatment by cytoskeletal drugs. The second set of experiments will study the effects ofcytoskeletal drugs on proliferation and migration of lens epithelial cells in cultured human lens capsularbag after cataract surgery. The PCO and accompanying changes in the cultured lens capsule will beobserved under a microscope for several weeks.
If we could demonstrate the efficacy of this drug in removing the residual lens epithelial cells andreducing the levels of PCO in culture, it is possible to have a safe and effective means to reduce incidenceof PCO and consequent decrease in post operative vision following cataract surgery in humans.
CORNEAL SURFACE RECONSTRUCTION USING BIO-ENGINEERED AUTOLOGOUS ORAL (BUCCAL) MUCOSAL EPITHELIUM
Investigators : Dr. VR. MuthukkaruppanDr. N. Venkatesh PrajnaDr. Usha KimDr. M. Srinivasan
Research Scholar : P. J. Jeya Prita
Funded by : Defence Research and Development Organization –Life Science Research Board (DRDO – LSRB)
The purpose of this study is to gener-ate buccal epithelial sheet by culturingpatient’s own buccal mucosal epithe-lium under appropriate culture condi-tions that will be transplanted onto thecornea of the patient with total limbalstem cell deficiency. This study aimsat characterising the cellular profileand to analyze the presence of stemcells in the bioengineered buccalmucosal epithelial sheet on the basis ofexpression of various markers like p63,Cytokeratin 3, 5, 10, 12, 14, 19, Cx43and ABCG2 and high N/C ratio andcomparing them with the limbal andcorneal epithelial stem cells. It ispossible to generate large coloniesfrom isolated buccal mucosal epithelialcells.
Buccal Mucosal Epithelium stained with Hematoxylin and Eosin
LaminaPropria
Muscles
Depressions
NonkeratinizedBuccalEpithelium
Mitomycin Ctreated 3T3
Small BuccalEpithelial colony
Large BuccalEpithelialcolony
Buccal Epithelial cell colony cultivated with mitomycin treated 3T3 as feeder cells.
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APPLICATION OF MULTIPLEX PCR IN THE DIAGNOSIS OF INFECTIOUS RETINITIS
Investigators : Dr. Lalitha PrajnaDr. Rathinam SivaKumarDr. R.Kim
Funded by : ICMRThe main goals of this project are to detect the causative agents like Herpes virus, Cytomegalovirus andVarizella zoster virus in cases of infectious uveitis and retinitis by multiplex PCR for more rapid results.
The Ocular Microbiology Laboratory has established molecular based diagnosis using Polymerasechain reaction techniques for the common infectious agents of the eye. Nested PCR is also used whichhelps to increase the specificity of the tests. These tests are capable of detecting viral infections likeHerpes virus, Cytomegalovirus and Varizella zoster virus, parasitic like toxoplasmosis and commonbacterial and fungal infections. Techniques are also available for the detection of Propionibacteriumacnes and Mycobacterium tuberculosis. Nested PCR is useful for the diagnosis especially in oculartuberculosis where routine microbiological culture is not always feasible. We have tested 20 suspectedocular tuberculosis patient’s samples and based on these results it was possible to start specific therapy.The number of samples with suspected viral etiology that was tested by nested PCR was 30.
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RESEARCH ADVISORY COMMITTEE
Aravind Medical Research Foundation has been approved as a Scientific and Industrial Research Organi-zation by the Department of Scientific & Industrial Research (DSIR), Government of India. AravindResearch programmes are reviewed by a Research Advisory Committee consisting of the followingmembers.
RESEARCH ADVISORY COMMITTEE MEMBERS
DR. P. NAMPERUMALSAMY, Chairman, Aravind Eye Care System
DR. A. GNANAM, Former Vice Chancellor, Pondicherry University
DR. K. DHARMALINGAM, Sr.Professor & Head, Department of Genetic Engineering, Madurai Kamaraj University, Madurai
DR. C.N. PARAMASIVAN, Deputy Director, Tuberculosis Research Centre, Indian Council of Medical Research
DR. L. THAYUMANAVAN, Gastroenterologist, Vadamalayan Hospital, Madurai
DR. K. ANANDA KANNAN, Former Vice Chancellor, The TN Dr. MGR Medical University
DR. VR. MUTHUKKARUPPAN, Director – Research, Aravind Medical Research Foundation
MR. G. SRINIVASAN, Hony. Secretary & Treasurer, Aravind Eye Care System
DR. N.V. PRAJNA, Clinician Scientist, Aravind Eye Care System
INSTITUTIONAL REVIEW BOARD
All the research projects undertaken by AMRF and by other constituents of Aravind Eye Care System arecritically evaluated for ethical issues by the Institutional Review Board (IRB) which has the followingmembers.CHAIRMAN
DR. K. DHARMALINGAM, Sr.Professor & Head, Department of Genetic Engineering, Madurai Kamaraj University, Madurai
MEMBER SECRETARY
DR. SR. RATHINAM, Chief, Uvea Clinic, Aravind–Madurai
MEMBERS
MR. V. SARANGAPANI, Advocate, Madurai
MS. SHOBANA RAMACHANDRAN, Managing Director, TVS Sri Chakra Ltd., Madurai
DR. T.S. CHANDRASEKARAN, Ophthalmologist, Gandhi Nagar, Madurai
DR. C. SRINIVASAN, AICTE, Emeritus Professor, Department of Material Sciences, Madurai Kamaraj University, Madurai
DR. L. THAYUMANAVAN, SR.GASTROENTEROLOGIST, Vadamalayan Hospital, Madurai
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VISITORS 2006
Dr. Pritindir Kaur, Peter MaccallumCancer Center, Australia visited on 2ndJanuary 2006 for discussion onEpithelial Stem Cells. She gave aseminar on “Epidermal Stem Cellbiology” at Department ofBiotechnology, Madurai KamarajUniversity
Dr. M. Ramanathan, Professor ofPharmacology, PSG College ofPharmacy, Coimbatore gave a guestlecture on “Understanding the role ofneuronal mediators inneurodegenerative processes” on 9thMarch 2006.
Dr.Dorothea Nitsch, Clinical Lecturer,Department of Epidemiology andpopulation Health, London School ofHygiene and Tropical Medicine, Londonvisited on 15th March 2006 fordiscussion about INDEYE project onGenetics of age related cataract andage related macular degeneration. Shealso gave a seminar on “MendelianRandomization”
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TIFAC-CORE Monitoring Committeevisited in March 2006 for discussion onthe progress of Research activities onDiabetic Retinopathy
Dr.Xu ling, Director of ResearchDivision, HE Eye Hospital, China visitedduring September 2006. She gave aseminar on the research programmesof her Institute.
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VISITS ABROAD
THE 6TH INTERNATIONAL SYMPOSIUM OF OPHTHALMOLOGY AND THE 7TH ASIA PACIFIC SOCIETY OF EYE GENETICS SYMPOSIUM(APSEG)Hong Kong, 13-15 August 2006
PROFESSOR C.P.PANG, Department of Ophthalmology and Visual Sciences, The Chinese University ofHong Kong, organised the APSEG meeting and invited Dr. P. Sundaresan to give a talk on “Moleculargenetics on hereditary Glaucoma and in vitro expression of mutant myocilin gene in trabecularmeshwork cells” in the APSEG symposium.
DR. P .SUNDARESAN, presented the above talkand met several senior researchers especially,Dr. C.P. PANG, The Chinese University ofHong Kong, Dr. Tin Aung, Dr. Eranga Vithana,Dr. Roger Beuerman from Singapore EyeResearch Institute, Dr. Mansoor Sarfarazi(Molecular ophthalmic Genetics Laboratory,University of Connecticut Health Center,Farmington, CT USA), Dr. Vincent Raymond,(Eastern Quebec Genomics Center, Quebeccity, Canada) and Dr. Shomi Bhattacharya(Department of Molecular Genetics, Institute ofOphthalmology, University college London, UK)and discussed about Corneal dystrophies,Glaucoma and Diabetic Retinopathy researchprojects and explored the possible ways forcollaborative projects on inherited eye diseases.MS. T. AMALA RAJASUNDARI, Ph.D Researchscholar at AMRF has undergone training atHealth Protection Agency (HPA), London forthree months (March 06 to May 06) under thesupervision of Dr. Li Jin, Molecular Virologist.The aim of this training was to carry out themolecular testing in the Congenital RubellaSyndrome (CRS) samples collected at AravindEye Hospital, India and to get practical trainingin rubella virus culture and molecular assays.MR. J. NALLATHAMBI, Junior Research Fellow,Department of Genetics, Aravind MedicalResearch Foundation, has been awarded thesandwich Ph.D scholarship by French EmbassyIndia, to carry out part of his Ph.D programmein Paris. He underwent research training atHuman Molecular Genetics Laboratory, InstitutAlfred Jost, Hopital Cochin, Paris, under theguidance of Prof. Reiner A Veitia for the
Mr.J.Nallathambi and Prof. Reiner A Veitia, Université Denis Diderot/Paris VII, Institut Cochin. Faculté de Médecine. 24 rue du FaubourgSaint Jacques. 75014 Paris
Dr. P.Sundaresan with Dr. Mansoor Sarfarazi (USA), Dr.Tara PrasadDass (LV Prasad, Hyderabad), Dr. Shomi S.Bhattacharya (UK),Dr. C.P. Pang (Hong Kong), Dr. Vincent Richmond (Canada) andDr. Natarajan (Mumbai)
Ms. Amala with Dr. Li Jin, Molecular Virologist, UK (Left) and all IDUstaff HPA, London, UK
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period of four months (September to December 2006). During the training period, functional analysis ofFOXL2 mutations in BPES was carried out and results were published in Human Genetics November2006. The visit was helpful to develop joined research collaborative projects between two organisations.MS.RAMYA DEVI RAMACHANDRAN, Junior research fellow, Department of Molecular Biology, AravindMedical Research Foundation was awarded the pre-doctoral visiting fellowship to work at the NationalEye Institute, NIH, Maryland, USA January 2006 - February 2007. During this period she has beenworking on the project “Understanding the genetic basis of hereditary cataract in Indian families” underthe guidance of Dr. J Fielding Hejtmancik, Chief of Ophthalmic Genetics & Visual Function Branch,wherein she has been trained in carrying out positional cloning of genes involved in inherited diseases andpublished an article on “Autosomal recessive juvenile onset cataract associated with mutation in BFSP1”Hum Genet. 2007 Jan 16. This visit has been a benefit to our ongoing research activity and will also behelpful in establishing many of the methodologies learned in the AMRF work setting and in building othercollaborative projects.
FIRST MEETING OF THE JOINT WORKING GROUP OF INDO-US COLLABORATION ON EXPANSION OF VISION RESEARCHNew Delhi, September 28-29, 2006
This first joint working group meeting was organised by Department of Biotechnology, Government ofIndia. Dr. P. Namperumalsamy, Chairman, Aravind Eye Care System and Dr. VR. Muthukkaruppan,Director, Aravind Medical Research Foundation were invited to attend the meeting. The main objective ofthe meeting was to discuss and plan for establishing collaboration on expansion of vision research betweenIndia and United States of America. Dr. P. Namperumalsamy spoke about the role of Aravind Eye Hospi-tal on overview of Vision Research and Diabetic Retinopathy clinical research network.
Dr. VR. Muthukkaruppan presented the various ongoing research projects as well as the potential ofpatient materials available for basic research. He has also mentioned about the project (“Will Cytoskeletaldrugs prevent Posterior Capsule Opacification?”) which was already approved by National Institute ofHealth.
The New Indo-US Collaborative projects will be considered for funding by National Institute of Healthand by Department of Biotechnology simultaneously.
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MAJOR CONFERENCES & TRAINING PROGRAMMES ATTENDED
“Human Genetics and Public Health”and XXXI Annual Conference of IndianSociety of Human GeneticsNew Delhi, Feb27-Mar 01,2006
Poster presentationsJ. KANAGAVALLI
- Novel Homozygous mutation inMYOC associated with Indian POAGpatient
B. HEMADEVI
- CYP1B1 Gene variations in primaryCongenital Glaucoma (PCG) andprimary Open Angle Glaucoma
J. NALLATHAMBI
- FOXL2 mutations in Indian familieswith Blepharophimosis- ptosis –Epicanthus Inversus Syndrome
Indo-Swedish Symposium on Genomicsand Proteomics of Diabetes, Madras onApril 1-2, 2006
P. SUNDARESAN, G. SAJITHLAL, G. SANGILIYANDI,P. MURUGESWARI, B. SUGANTHALAKSHMI wereparticipated
Poster presentationsB. SUGANTHALAKSHMI
- Role of VEGF, eNos and ALR genepolymorphisms in diabetic retinopa-thy
Indian Eye Research Group (IERG)MeetingL V Prasad Eye Institute, Hyderabad,July 20-30, 2006
DR. VR. MUTHUKKARUPPAN
- Identification, Enrichment andcharacterization of Human CornealEpithelial Stem Cells
GOWRI PRIYA CHIDAMBARANATHAN
- Leptospiral Uveitis is endotoxinmediated
AMALA RAJASUNDARI
- Molecular Study On CongenitalRubella Syndrome In South IndianPopulation
J. KANAGAVALLI
- Normal And Mutant Myocilin GeneExpression In Cultured TrabecularMeshwork Cells
P. MURUGESWARI & B. SUGANTHALAKSHMI
- Correlation Between GeneticPolymorphisms And Vitreous Levels OfVEGF in Proliferative DiabeticRetinopathy
B. HEMADEVI
- Molecular Genetic Analysis OfAutosomal Recessive CongenitalHereditary Endothelial Dystrophy
Indian Eye Research Group - 2006 at L.V. Prasad Eye Institute, Hydrabad
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J CLIN VIROL2006; 37:265-8P.VIJAYALAKSHMI,VR.MUTHUKKARUPPAN,A.RAJASUNDARI, G.KORUKLUOGLU,W.NIGATU, L.A.WARRENER,D.SAMUEL,D.W.G.BROWN
- Evaluation of a commercial rubellaIgM assay for use on oral fluid samplesfor diagnosis and surveillance ofcongenital rubella syndrome andpostnatal rubella 2006
HUMAN GENETICS2006 Nov 7 ; [Epub ahead of print]NALLATHAMBI J, MOUMNE L, DE BAERE
E, BEYSEN D, USHA K, SUNDARESAN P,VEITIA RA.- A novel polyalanine expansion in
FOXL2: the first evidence for arecessive form of theblepharophimosis syndrome (BPES)associated with ovarian dysfunction.
HUMAN GENETICS2006 (In press)RAMYA DEVI RAMACHANDRAN,VIJAYALAKSHMI PERUMALSAMY,J.FIELDING HEJTMANCIK
- Autosomal recessive juvenile onsetcataract associated with mutation inBFSP1
MOL VISION2006 ( In press)BALASUBBU SUGANTHALAKSHMI,DHANANJAY SHUKLA, ANAND
RAJENDRAN, RAMASAMY KIM, JEYABALAN
NALLATHAMBI, AND PERIASAMY
SUNDARESAN
- Genetic variations in the hotspotregion of RS1 gene in Indian patientswith Juvenile X-Linked Retinoschisis
JOURNAL OF GENETICS2006 (In press)JEYABALAN NALLATHAMBI GURUSWAMY
NEETHIRAJAN, KIM USHA, JETHANI
JITENDRA, ELFRIDE DE BAERE, AND
PERIASAMY SUNDARESAN
- FOXL2 mutations in Indian familieswith Blepharophimosis-Ptosis-Epicanthus Inversus Syndrome
PUBLICATIONS
ASIAN J.EXP.SCI.2006:20:15-28SUGANTHALAKSHMI, RAJENDRAN, KIM,NAMPERUMALSAMY, SUNDARESAN
- Emerging Patterns of PossiblePotential Candidate Gene Polymor-phisms Associated with DiabeticRetinopathy – a review
NATURE GENETICS2006 Jul; 38 (7):755-7ERANGA VITHANA, MORGAN,SUNDARESAN, EBENEZER, TAN, ANAND,KHINE, DHIVYA, YONG, SALTO TELLEZ,ANANDALAKSHMI, KE GUO, HEMADEVI,MOIN D. MOHAMED, SRINIVASAN M,PRAJNA, KHINE M, CASEY J, CHRIS F.INGLEHEARN AND TIN AUNG .- Mutations in Na+-borate co-
transporter SLC4A11 cause recessiveCongenital Hereditary EndothelialDystrophy CHED2 .
BMC J OPHTHALMOL2006, 6:28NEETHIRAJAN G, NALLATHAMBI J,KRISHNADAS, VIJAYALAKSHMI,SHASHIKANTH, JON MARTIN COLLINSON
AND SUNDARESAN
- Identification of novel mutant PAX6alleles in Indian cases of familialaniridia,
MOL VISION2006; 12:336-41SUGANTHALAKSHMI B, ANAND R, KIM
R, MAHALAKSHMI R, KARTHIKPRAKASH
S, NAMPERUMALSAMY P, SUNDAREASAN P.- Association of VEGF and eNOS gene
polymorphisms in type 2 diabeticretinopathy.
MOL VISION2006 12: 1086 - 1092NALLATHAMBI J, SHUKLA, RAJENDRAN,NAMPERUMALSAMY, MUTHULAKSHMI,SUNDARESAN
- Identification of Novel FZD4mutations in Indian Patients withFamilial Exudative Vitreoretinopathy(FEVR)
MOL VISION2006:12:236-42NALLATHAMBI J, NEETHIRAJAN G,SHASHIKANT S, VIJAYALAKSHMI P,SUNDARESAN P,- PAX6 Missense Mutations Associated
in patients with Optic NerveMalformation
MOL VISION2006;12:190-5DEVIRR, VIJAYALAKSHMI P.- Novel mutations in GJA8 associated
with autosomal dominant congenitalcataract and microcornea
INDIAN J OPHTHALMOL2007;55:27-31VASANTHI, NAMPERUMALSAMY, PRAJNA,LALITHA, KANNAN MAHADEVAN,MUTHUKKARUPPAN
- A Pilot study on the infiltrating cellsand cytokine levels in the tear offungal Keratitis patients.
CORNEA2006 (accepted)ROHINI, MURUGESWARI, PRAJNA,LALITHA, MUTHUKKARUPPAN
- Matrix Metalloproteinases (MMP-8,MMP-9) and the Tissue Inhibitors ofMetalloproteinases (Timp-1, Timp-2)in Keratitis Patients
CORNEA2006 (accepted)PRAJNA, NIRMALA, SARAVANAN,SRINIVASAN
- An economic analysis of cornealulcers in South India
2006 INDIAN J MED RES2006 Nov;124(5):553-8.AMALA, KEERTHY, VIJAYALAKSHMI,MUTHUKKARUPPAN
- Immune Status of Health CarePersonnel and Post vaccinationanalysis of immunity againstRubella in an Eye Hospital”
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